EP2324576B1 - Datenkommunikationsnetzwerk und datenkommunikationsverfahren mit übertragung von soft-decision-informationen - Google Patents
Datenkommunikationsnetzwerk und datenkommunikationsverfahren mit übertragung von soft-decision-informationen Download PDFInfo
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- EP2324576B1 EP2324576B1 EP09813187.3A EP09813187A EP2324576B1 EP 2324576 B1 EP2324576 B1 EP 2324576B1 EP 09813187 A EP09813187 A EP 09813187A EP 2324576 B1 EP2324576 B1 EP 2324576B1
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- decision information
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- 101100426111 Saccharomyces cerevisiae (strain ATCC 204508 / S288c) TRM2 gene Proteins 0.000 description 9
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W36/00—Hand-off or reselection arrangements
- H04W36/16—Performing reselection for specific purposes
- H04W36/18—Performing reselection for specific purposes for allowing seamless reselection, e.g. soft reselection
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04B—TRANSMISSION
- H04B7/00—Radio transmission systems, i.e. using radiation field
- H04B7/02—Diversity systems; Multi-antenna system, i.e. transmission or reception using multiple antennas
- H04B7/022—Site diversity; Macro-diversity
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L25/00—Baseband systems
- H04L25/02—Details ; arrangements for supplying electrical power along data transmission lines
- H04L25/06—Dc level restoring means; Bias distortion correction ; Decision circuits providing symbol by symbol detection
- H04L25/067—Dc level restoring means; Bias distortion correction ; Decision circuits providing symbol by symbol detection providing soft decisions, i.e. decisions together with an estimate of reliability
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W84/00—Network topologies
- H04W84/02—Hierarchically pre-organised networks, e.g. paging networks, cellular networks, WLAN [Wireless Local Area Network] or WLL [Wireless Local Loop]
- H04W84/10—Small scale networks; Flat hierarchical networks
- H04W84/12—WLAN [Wireless Local Area Networks]
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W88/00—Devices specially adapted for wireless communication networks, e.g. terminals, base stations or access point devices
- H04W88/08—Access point devices
Definitions
- the following description relates to a data communication network where a plurality of communication devices computes soft-decision information and transmits the soft-decision information to another communication device.
- a plurality of independent channels is formed between a base station and a mobile station.
- a signal transmitted from a mobile station is transmitted through a plurality of independent channels, and a base station efficiently combines signals transmitted through the plurality of independent channels. Accordingly, a superior receiving performance may be obtained, which is called a diversity effect.
- 'macro diversity' may be efficiently used where a mobile station performs a handover, since a signal transmitted from a mobile station is received in two base stations as a similar multipath fading occurs. Accordingly, an achievable diversity gain is significant, and thus macro diversity may be used where a mobile station performs a handover. However, a large amount of overhead is generated where received signals are combined to obtain a diversity gain.
- At least two base stations receive a transmission signal of a mobile station.
- Each base station transmits a received signal to a Radio Network Controller (RNC).
- RNC Radio Network Controller
- the RNC combines transmitted signals and detects a transmission signal.
- the detected transmission signal is transmitted to a destination through a switch, and the like.
- a large amount of overhead may be generated in an RNC through the above-described process. Also, the process may not applicable where base stations are not managed by a single RNC.
- US 2005/0271012 A1 discloses soft handoff for reverse link in a wireless communication system with frequency reuse, wherein a wireless terminal searches for pilots transmitted by sectors in a wireless system, measures the detected pilots, selects a serving sector, and identifies non-serving sectors that may receive high interference from the terminal.
- the serving sector assigns the terminal with sub-bands that are usable by the serving sector and unusable by the non-serving sectors.
- the terminal transmits data symbols on the assigned sub-bands to the serving and non-serving sectors. These sectors process the reverse link transmission from the terminal and obtain soft-decision symbols, which are estimates of the transmitted data symbols.
- the soft-decision symbols from co-located sectors may be combined and then decoded to obtain decoded packets.
- US 2006/0291599 A1 discloses efficient diversity combining for wideband downlink, in order to increase link availability, including at least two receivers at receive sites within a single downlink beam separated by enough distance to provide decorrelation of weather phenomena - such as rain fade outages.
- US 5,539,749 A discloses a method for merging data streams generated by a plurality of base stations in a cellular mobile radio telephone network upon receipt by each base station of a mobile unit signal transmitted by a mobile unit, wherein each base station routes the mobile unit signal in the form of a stream of data in blocks of data bits, each bit in each block having associated therewith a reliability value generated by its respective base station.
- a method of operating a target access point including receiving a transmission symbol transmitted by a source device to a destination device, computing soft-decision information for a soft decision with respect to information bits corresponding to the transmission symbol, detecting the information bits based on the computed soft-decision information, and transmitting the soft-decision information or the detected information bits to the destination device or an access point connected to the destination device.
- the destination device or the access point connected to the destination device may combine the soft-decision information transmitted by each of a plurality of access points, and detect the information bits using the combined soft-decision information.
- a method of operating a destination device or an access point connected to the destination device including receiving soft-decision information about information bits corresponding to a transmission symbol from a plurality of access points, the transmission symbol being transmitted from a source device to the destination device, combining the soft-decision information of the plurality of access points, and detecting the information bits using the combined soft-decision information.
- a method of operating a router including receiving soft-decision information about information bits corresponding to a transmission symbol from a plurality of access points or at least one neighbor router, the transmission symbol being transmitted from a source device to a destination device, combining soft-decision information of the plurality of access points or the at least one neighbor router, and transmitting the combined soft-decision information to the destination device or an access point connected to the destination device.
- a communication device for a destination device or an access point connected to the destination device including a receiving unit to receive soft-decision information about information bits corresponding to a transmission symbol from a plurality of access points, the transmission symbol being transmitted from a source device to the destination device, a combining unit to combine the soft-decision information of the plurality of access points, a detection unit to detect the information bits using the combined soft-decision information, and an error check unit to check for an error in the detected information bits.
- FIGS. 1 through 3 illustrate a variety of networks using macro diversity.
- FIG. 1 shows a network including two base stations (BSs) 120 and 130 managed by a single Radio Network Controller (RNC).
- BSs base stations
- RNC Radio Network Controller
- a BS1 120 and a BS2 130 may be managed by a single RNC 140.
- a transmission signal of a mobile station (MS) 110 may be received in the BS1 120 and the BS2 130.
- the BS1 120 and the BS2 130 may transmit the received signals to the RNC 140.
- the BS1 120 and the BS2 130 may quantize the received signals, and transmit the quantized received signals to the RNC 140.
- the RNC 140 may be wired to the BS1 120 and the BS2 130.
- the RNC 140 may combine the received signals of the BS1 120 and the BS2 130, and detect the transmission signal. Where the detected transmission signal is binary data, the binary data reaches a destination through a switch, and the like.
- the RNC 140 combines the received signals of the BS1 120 and the BS2 130, and thereby may obtain a diversity gain.
- the received signals of BS1 120 and BS2 130 are transmitted through independent channels which are different from each other.
- the RNC 140 may perform a large amount of computations in order to combine the received signals of the BS1 120 and the BS2 130. Also, since the BS1 120 and the BS2 130 transmit the quantized received signals, network traffic may increase.
- the RNC 140 is managed by a communication service provider. Accordingly, where the BS1 120 and the BS2 130 are connected to different RNCs, respectively, a single RNC may not combine the received signals of the BS1 120 and the BS2 130. Also, an apparatus such as a femto cell base station may not be precisely controlled by an RNC, and thus received signals of a plurality of BSs may not be combined to obtain a diversity gain in a network including the femto cell base station.
- FIG. 2 shows a network including two BSs managed by two different RNCs.
- an MS 210 may transmit a transmission signal to a BS1 220 and a BS2 230.
- the BS1 220 and the BS2 230 may quantize received signals, and transmit the quantized received signals to an RNC1 240 and an RNC2 250.
- the BS 1 220 may be managed by the RNC1 240, and the BS2 230 may be managed by the RNC2 250.
- the RNC1 240 and the RNC2 250 may be managed by different communication service providers.
- the RNC1 240 and the RNC2 250 may not manage received signals of the BS1 220 and the BS2 230 managed by different communication service providers.
- the received signals of the BS1 220 and the BS2 230 may not be combined to obtain a diversity gain, although the RNC1 240 and the RNC2 250 are connected to each other through a switch 260.
- FIG. 3 shows a network including a femto cell base station 330.
- an MS 310 may transmit a transmission signal to a BS1 320 and the femto cell base station 330.
- the BS1 320 may be managed by an RNC1 340, and RNC1 340 may be connected to the femto cell base station 330 through a switch 360 and the Internet 350.
- the BS1 320 may quantize a received signal and transmit the received signal to the RNC1 340.
- the femto cell base station 330 may not be precisely controlled by any RNC. Accordingly, since the BS1 320 and the femto cell base station 330 are not managed by a same RNC, received signals of the BS1 320 and the femto cell base station 330 may not be combined.
- FIG. 4 shows a network including access points transmitting soft-decision information according to an exemplary embodiment.
- a source device 410 may transmit a transmission symbol to a plurality of access points (APs), that is, an AP1 421, an AP2 422, and an AP3 423, through wireless channels independent of each other.
- APs access points
- a portion of the AP1 421, the AP2 422, and the AP3 423 may receive the transmission symbol of the source device 410 through logical connections.
- Remaining APs excluding the portion of the AP1 421, the AP2 422, and the AP3 423 may overhear the transmission symbol of the source device 410 without the logical connections.
- each of the AP1 421, the AP2 422, and the AP3 423 may compute soft-decision information for soft decision based on a received signal.
- the soft-decision information may include a Log Likelihood Ratio (LLR).
- the soft-decision information computed by each of the AP1 421, the AP2 422, and the AP3 423 may be transmitted to a destination device 440 through the Internet 430.
- the destination device 440 may combine the soft-decision information of the AP1 421, the AP2 422, and the AP3 423, and may detect the transmission symbol or information bits corresponding to the transmission symbol.
- the destination device 440 may use the soft-decision information of each of the AP1 421, the AP2 422, and the AP3 423 to detect the information bits, and thus a diversity gain may be obtained.
- Each of the AP1 421, the AP2 422, and the AP3 423 may not need to quantize the received signal and transmit the received signal to the destination device 440 or a separate RNC.
- each of the AP1 421, the AP2 422, and the AP3 423 may not need to transmit the quantized received signal to obtain the diversity gain. Accordingly, an overhead generated throughout a network may be reduced.
- x may denote the transmission symbol of the source device 410
- h 1 may denote a channel formed between the AP1 421 and the source device 410
- n may denote an Additive White Gaussian Noise (AWGN).
- the transmission symbol x may be a transmission symbol modulated according to a variety of modulation schemes. For example, where the transmission symbol x is modulated according to a 16 Quadrature Amplitude Modulation (QAM) scheme, information bits of four bits corresponding to the transmission symbol x may be b1, b2, b3, and b4.
- QAM Quadrature Amplitude Modulation
- n may denote an index of a transmission symbol x
- z 1,n may be an equalization coefficient of a one-tap equalizer used by AP1 421.
- L k 1,n an LLR (L k 1,n ) with respect to information bits based on the received signal.
- y 1 Pr b k 0
- 2 CSI 1, n D x ⁇ 1, n , k
- the AP2 422 and the AP3 423 may compute an LLR (L k 2,n ) and an LLR (L k 3,n ) based on Equation 3.
- CSI 1, n
- ⁇ 2 may be a variance of AWGN.
- ⁇ b k may be a set of symbols where a k th bit is b from among QAM symbols.
- CSI 1,n may be used as a weight factor where combining LLRs.
- CSI 1,n is associated with an amplitude of a channel, and D x ⁇ 1, n , k is not associated with the amplitude of the channel.
- D x ⁇ 1, n , k may be associated with a probability related to whether a received complex number is 1 or 0 in a normalized constellation.
- each of AP1 421, AP2 422, and AP3 423 may compute LLR n k based on the received signal.
- LLR n k of AP1 421, AP2 422, and AP3 423 may be transmitted to the destination device 440.
- the destination device 440 may combine LLR n k of each of the AP1 421, the AP2 422, and the AP3 423, detect a transmission symbol or information bits using the combined LLR n k , and thereby may obtain the diversity gain.
- Each of the AP1 421, the AP2 422, and the AP3 423 may quantize LLR n k , and transmit the quantized LLR n k to the destination device 440.
- CSI n does not change during a single transmission symbol duration
- D x ⁇ n , k may change during the single transmission symbol duration.
- each of the AP1 421, the AP2 422, and the AP3 423 does not quantize the entire LLR n k , and may separately quantize each of CSI n and D x ⁇ n , k .
- each of the AP1 421, the AP2 422, and the AP3 423 may transmit CSI n , quantized with respect to N-bit information bits once, and transmit the quantized D x ⁇ n , k N times.
- each of the AP1 421, the AP2 422, and the AP3 423 may transmit LLR n k more efficiently.
- each of the AP1 421, the AP2 422, and the AP3 423 may detect the information bits based on the received signal. That is, each of the AP1 421, the AP2 422, and the AP3 423 may detect the transmission symbol or information bits based on the computed soft-decision information.
- Each of A the P1 421, the AP2 422, and the AP3 423 may check whether an error exists in the detected information bits.
- each of the AP1 421, the AP2 422, and the AP3 423 may use a Cyclic Redundancy Check (CRC).
- CRC Cyclic Redundancy Check
- each of the AP1 421, the AP2 422, and the AP3 423 may transmit the detected information bits to the destination device 440 through the Internet 430. Conversely, where the error exists in the detected information bits, each of the AP1 421, the AP2 422, and the AP3 423 may transmit the soft-decision information to the destination device 440 so that the destination device 440 detects the information bits.
- the information bits may be designated by a box with dotted-lines illustrated in FIG. 4
- the soft-decision information may be designated by a box with solid lines also illustrated in FIG. 4 .
- the source device 410 may transmit a transmission symbol to the AP1 421, the AP2 422, and the AP3 423 through a wireless channel.
- the transmission symbol corresponds to information bits '0100.'
- AP1 421 may compute soft-decision information as '0734' based on the received signal. In this instance, where each bit of the soft-decision information is closer to '0,' a probability that information bits corresponding to each of the bits of the soft-decision information is '0' may increase. Also, where each of the bits of the soft-decision information is closer to '7', a probability that information bits corresponding to each of the bits of the soft-decision information is '1' may increase. Similarly, the AP2 422 and the AP3 423 may compute the soft-decision information as '3224' and '2230,' respectively.
- each of the AP1 421, the AP2 422, and the AP3 423 may detect information bits based on the soft-decision information. That is, the AP1 421, the AP2 422, and the AP3 423 may detect the information bits as '0101,' '0001,' and '0000,' respectively. Where an error does not exist in the information bits detected by the AP1 421, the AP2 422, and the AP3 423, the detected information bits may be transmitted to the destination device 440. However, here, it may be ascertained that the error exists in the information bits detected by the AP1 421, the AP2 422, and the AP3 423.
- the AP1 421, the AP2 422, and the AP3 423 may transmit the soft-decision information computed through the Internet 430 to the destination device 440.
- the destination device 440 combines the soft-decision information of each of the AP1 421, the AP2 422, and the AP3 423, and thereby may precisely detect information bits.
- the destination device 440 may generate combined soft-decision information by adding the soft-decision information of each of the AP1 421, the AP2 422, and the AP3 423, and compare the combined soft-decision information and a predetermined threshold value to detect the information bits.
- y 1 , y 2 Pr b k 0
- y Pr b k 1
- y 2 Pr b k 0
- y Pr b k 0
- y 1 Pr b k 0
- the destination device 440 compares L n k and a threshold value, and thereby may detect the information bits.
- the combining of LLRs may be performed by computing an average of LLRs, selecting a maximum value from the LLRs, and the like, to reduce complexity.
- the soft-decision information of each of the AP1 421, the AP2 422, and the AP3 423 may be three bits. In this instance, 9 (3 x 3) bits are required to transmit the soft-decision information computed by the AP1 421, the AP2 422, and the AP3 423 to the destination device 440. That is, an overhead may be generated in a network where transmitting the soft-decision information. A method of reducing the overhead is described with reference to FIG. 5 .
- FIG. 5 shows a network including a destination device or an access point connected to the destination device according to another exemplary embodiment.
- a plurality of APs that is, an AP1 521, an AP2 522, and an AP3 523, are connected to routers 530 and 540.
- the routers 530 and 540 may combine soft-decision information of the AP1 521, the AP2 522, and the AP3 523, and transmit the combined soft-decision information to a destination device 560 or an AP4 550 connected to the destination device 560. That is, the routers 530 and 540 may combine the soft-decision information as described in FIG. 4 .
- the routers 530 and 540 combine the soft-decision information of the AP1 521, the AP2 522, the AP3 523, and the destination device 560, and thus overhead, generated since the AP1 521, the AP2 522, and the AP3 523 directly transmit the soft-decision information to the destination device 560 or the AP4 550, may be reduced.
- the AP4 550 may finally combine the soft-decision information instead of the destination device 560. That is, although the destination device 440 may finally combine the soft-decision information in the network illustrated in FIG. 4 , the AP4 550 may finally combine the soft-decision information and detect information bits using the combined soft-decision information. The AP4 550 may transmit the detected information bits to the destination device 560.
- the information bits may be designated by a box with dotted-lines illustrated in FIG. 5
- the soft-decision information may be designated by a box with solid lines also illustrated in FIG. 5 .
- a source device 510 may transmit information bits '0100.' The information bits '0100' correspond to a transmission symbol.
- Each of the AP1 521, the AP2 522, and the AP3 523 may compute an LLR as '0734,' '3224,' and '2230,' respectively, based on a received signal.
- each of the AP1 521, the AP2 522, and the AP3 523 may detect information bits as '0101,' '0001,' and '0000' using the LLR. However, it may be ascertained that an error exists in the information bits, '0101,' '0001,' and '0000,' as detected by each of the AP1 521, the AP2 522, and the AP3 523.
- the LLRs of the AP1 521 and the AP2 522 may be transmitted to the router 530.
- the router 530 may combine the LLRs of AP1 521 and AP2 522, that is, '0734' and '3224'. Accordingly, the router 530 may generate an average value of the LLRs of the AP1 521 and the AP2 522.
- the average value of the LLRs of the AP1 521 and the AP2 522 may be the combined LLR, '2524'.
- the router 530 may transmit the combined LLR, '2524' to the router 540.
- the router 540 may receive LLRs of the router 530 and the AP3 523, that is, '2524' and '2230.' In this instance, the router 540 may combine the LLRs of the router 530 and the AP3 523, and transmit the combined LLR to the AP4 550.
- the AP4 550 may detect information bits using the LLR transmitted by the router 540, and transmit the detected information bits to the destination device 560.
- FIG. 6 is a flowchart illustrating a method of operating a target access point according to an exemplary embodiment.
- FIG. 7 shows a frame configuration of packets according to an exemplary embodiment.
- a target access point may receive data from a source device.
- the target access point may be any one of a plurality of APs.
- the data may include N-bit information bits corresponding to a transmission symbol of the source device.
- the target access point may compute soft-decision information with respect to the N-bit information bits. That is, the target access point may compute an LLR with respect to the N-bit information bits.
- the LLR with respect to the N-bit information bits are ⁇ L1, L2, ..., LN ⁇ .
- the target access point may detect the N-bit information bits based on the soft-decision information.
- the detected N-bit information bits are ⁇ b1, b2, ..., bN ⁇ .
- the target access point may check for an error with respect to the detected N-bit information bits according to a CRC scheme.
- the target access point may transmit the N-bit information bits to a neighboring router, AP, destination device, and the like, based on a frame configuration of Mode 1 of FIG. 7 .
- the packet transmitted by the target access point includes the detected N-bit information bits ⁇ b1, b2, ..., bN ⁇ using the neighboring router, AP, or destination device.
- the target access point may quantize LLR ⁇ L1, L2, ..., LN ⁇ which is the computed soft-decision information.
- the quantized soft-decision information may be represented as ⁇ Q1, Q2, ..., QN ⁇ .
- the target access point may transmit the quantized soft-decision information ⁇ Q1, Q2, ..., QN ⁇ to the destination device or an AP connected to the destination device, according to a frame configuration of Mode 2.
- the delay limit (Delay_t) may indicate a delay limit of a service being provided.
- FIG. 8 is a flowchart illustrating a method of operating a router according to an exemplary embodiment.
- the router may receive a packet from a plurality of APs or at least one neighbor router.
- the packet may include soft-decision information with respect to information bits corresponding to a transmission symbol, or information bits.
- the router may extract identification information (C) from the packet including the soft-decision information or the information bits, and determine whether the identification information (C) is 1. Where the identification information (C) is 1, it may indicate that the packet includes the information bits. Where the identification information (C) is not 1, it may indicate that the packet includes the soft-decision information.
- the router may remove different soft-decision information from a queue.
- the different soft-decision information may be soft-decision information that has already been received from another AP or another neighbor router. However, the different soft-decision information may be associated with the same transmission symbol.
- the router may transmit the information bits ⁇ b1, b2, ..., bN ⁇ to another router, AP, or destination device.
- the router may determine whether the different soft-decision information exists in the queue. Where the different soft-decision information exists in the queue, the different soft-decision information is to be combined with currently received soft-decision information.
- the router may combine the different soft-decision information and the currently received soft-decision information. Accordingly, the combined soft-decision information ⁇ L1, L2, ..., LN ⁇ may be generated.
- the router may quantize the combined soft-decision information ⁇ L1, L2, ..., LN ⁇ , generate the quantized soft-decision information ⁇ Q1, Q2, ..., QN ⁇ , and transmit the quantized soft-decision information ⁇ Q1, Q2, ..., QN ⁇ to the other router, AP, or destination device.
- the router may compare an actual delay (Delay) and a delay limit (Delay_t) of a service being provided.
- the packet according to the frame configuration of Mode 2 may include information associated with the delay limit. Since services have a variety of delay limits, the router may combine soft-decision information of the plurality of APs based on the various delay limits.
- the router may combine soft-decision information of at least one AP, quantize the combined soft-decision information, and transmit the quantized soft-decision information ⁇ Q1, Q2, ..., QN ⁇ to the other router, AP, and destination device.
- the router may place the currently received soft-decision information in the queue, in operation S890.
- FIG. 9 is a flowchart illustrating a method of operating a destination device or an AP connected to the destination device according to an exemplary embodiment.
- the destination device or the AP connected to the destination device may receive a packet from a plurality of APs.
- the packet includes soft-decision information or information bits.
- the destination device or the AP connected to the destination device may determine which one of the soft-decision information or information bits is included in the packet using identification information (C) included in the packet.
- the packet may include the information bits, and thus the destination device or the AP connected to the destination device may remove different soft-decision information existing in a queue.
- the destination device or the AP connected to the destination device may determine that the information bits are successfully transmitted. For example, the destination device or the AP connected to the destination device may transmit an acknowledgement (ACK) message to a source device.
- ACK acknowledgement
- the packet may include the soft-decision information, and thus the destination device or the AP connected to the destination device may determine whether different soft-decision information exists in the queue in operation S950.
- the destination device or the AP connected to the destination device may combine currently received soft-decision information and the different soft-decision information existing in the queue.
- the destination device or the AP connected to the destination device may detect information bits using the combined soft-decision information.
- the destination device or the AP connected to the destination device may determine whether an error exists in the detected information bits based on a CRC scheme.
- the information bits are successfully transmitted, and thus an ACK message may be transmitted to the source device.
- the destination device or the AP connected to the destination device may determine whether an actual delay (Delay) is equal to or greater than a delay limit (Delay_t) of a service being provided.
- the destination device or the AP connected to the destination device may place the currently received soft-decision information in the queue in operation S980.
- the methods described above including a method of operating a target access point, router, destination device or access point connected to the destination device may be recorded, stored, or fixed in a computer-readable medium, or a plurality of computer-readable media, that includes program instructions to be implemented by a computer to cause a processor to execute or perform the program instructions.
- the methods described above may be recorded, stored, or fixed in one or more computer-readable media that includes program instructions to be implemented by a computer to cause a processor to execute or perform the program instructions.
- the media may also include, alone or in combination with the program instructions, data files, data structures, and the like.
- Examples of computer-readable media include magnetic media, such as hard disks, floppy disks, and magnetic tape; optical media such as CD ROM disks and DVDs; magneto-optical media, such as optical disks; and hardware devices that are specially configured to store and perform program instructions, such as read-only memory (ROM), random access memory (RAM), flash memory, and the like.
- Examples of program instructions include both machine code, such as produced by a compiler, and files containing higher level code that may be executed by the computer using an interpreter.
- the described hardware devices may be configured to act as one or more software modules in order to perform the operations and methods described above.
- a communication device including a destination device or an AP connected to the destination device may include a receiving unit, combining unit, detection unit, and error check unit.
- the receiving unit may receive soft-decision information about information bits corresponding to a transmission symbol from a plurality of APs.
- the transmission symbol may be transmitted from a source device to the destination device.
- the combining unit may combine the soft-decision information of the plurality of APs.
- the detection unit may detect the information bits using the combined soft-decision information.
- the error check unit may check for an error in the detected information bits.
- the receiving unit may further receive identification information.
- the soft-decision information or the information bits detected by the at least one of the plurality of APs may be identified based on the identification information.
- the communication device may further include an identification unit to identify the soft-decision information and information bits detected by at least one of the plurality of APs using identification information.
- a detailed description of the communication device may be omitted, since descriptions with reference to FIGS. 1 through 9 may be applied to the communication device.
- an AP may transmit soft-decision information to enable a destination device or an AP connected to the destination device to obtain a diversity gain.
- a destination device or an AP connected to the destination device may combine soft-decision information of a plurality of APs, detect information bits using the combined soft-decision information, and thereby may improve a capacity.
- a router or APs may transmit combined or uncombined soft-decision information to a destination device or an AP connected to the destination device, and thereby may reduce an overhead generated to obtain a diversity gain.
Claims (14)
- Verfahren zum Betrieb eines Ziel-Zugangspunktes aus einer Mehrzahl von Zugangspunkten, wobei das Verfahren umfasst: Empfangen eines Übertragungssymbols, das von einer Quellvorrichtung an eine Zielvorrichtung übertragen wurde (S610); Berechnen von Soft-Decision-Informationen für eine Soft-Decision in Bezug auf Informationsbits, die dem Übertragungssymbol entsprechen (S620); Erfassen der Informationsbits auf der Basis der berechneten Soft-Decision-Informationen (S630); Überprüfen, ob in den erfassten Informationsbits ein Fehler vorhanden ist (S640); und, falls kein Fehler in den erfassten Informationsbits vorhanden ist, Übertragen der erfassten Informationsbits an die Zielvorrichtung oder einen mit der Zielvorrichtung verbundenen Zugangspunkt (S650), oder falls ein Fehler in den erfassten Informationsbits vorhanden ist, Übertragen der Soft-Decision-Informationen an die Zielvorrichtung oder einen mit der Zielvorrichtung verbundenen Zugangspunkt (S670), wobei die Zielvorrichtung oder der mit der Zielvorrichtung verbundene Zugangspunkt die von jedem aus der Mehrzahl von Zugangspunkten übertragenen Soft-Decision-Informationen kombiniert; und wobei beim Übertragen der Soft-Decision-Informationen (S670) weiterhin Informationen übertragen werden, die mit einem dem Übertragungssymbol entsprechenden Verzögerungslimit verknüpft sind, wobei das Verzögerungslimit für jeden Dienst unterschiedlich ist.
- Verfahren nach Anspruch 1, wobei, falls ein Fehler in den erfassten Informationsbits vorhanden ist (S640), die Zielvorrichtung oder der mit der Zielvorrichtung verbundene Zugangspunkt die Informationsbits unter Verwendung der kombinierten Soft-Decision-Informationen erfasst.
- Verfahren nach einem der vorstehenden Ansprüche, wobei beim Empfangen (S610) das Übertragungssymbol direkt empfangen oder mitgehört wird.
- Verfahren nach einem der vorstehenden Ansprüche, wobei beim Berechnen (S620) ein Logwahrscheinlichkeitsverhältnis (LLR, Log Likelihood Ratio) in Bezug auf die Informationsbits berechnet wird.
- Verfahren nach einem der vorstehenden Ansprüche, wobei, falls ein Fehler in den erfassten Informationsbits vorhanden ist (S640), beim Übertragen (S660) die Soft-Decision-Informationen quantisiert und die quantisierten Soft-Decision-Informationen übertragen (S670) werden.
- Verfahren zum Betrieb einer Zielvorrichtung oder eines mit der Zielvorrichtung verbundenen Zugangspunktes, wobei das Verfahren umfasst: Empfangen von Soft-Decision-Informationen (S910) über Informationsbits, die einem Übertragungssymbol entsprechen, das von einer Mehrzahl von Zugangspunkten stammt, wobei die Soft-Decision-Informationen Informationen umfassen, die mit einem dem Übertragungssymbol entsprechenden Verzögerungslimit verknüpft sind, wobei das Übertragungssymbol von einer Quellvorrichtung an die Zielvorrichtung übertragen wird und das Verzögerungslimit für jeden Dienst unterschiedlich ist; Kombinieren der Soft-Decision-Informationen der Mehrzahl von Zugangspunkten; Erfassen der Informationsbits unter Verwendung der kombinierten Soft-Decision-Informationen (S962); und
Abrufen der empfangenen Soft-Decision-Informationen in einer Warteschlange, wobei beim Kombinieren die Soft-Decision-Informationen der Mehrzahl von Zugangspunkten auf der Basis der abgerufenen Soft-Decision-Informationen kombiniert werden; und/oder
Anordnen der Soft-Decision-Informationen in einer Warteschlange (S980) gemäß dem Vergleich (S970) einer tatsächlichen Verzögerung mit dem Verzögerungslimit entsprechend dem Übertragungssymbol. - Verfahren nach Anspruch 6, das weiterhin umfasst: Überprüfen, ob ein Fehler in den erfassten Informationsbits zu finden ist (S963).
- Verfahren nach Anspruch 6 oder 7, wobei das Empfangen (S910) der Soft-Decision-Informationen weiterhin umfasst: Empfangen von Identifizierungsinformationen, um die Soft-Decision-Informationen oder die von wenigstens einer aus der Mehrzahl von Zugangspunkten erfassten Informationsbits zu identifizieren; und Identifizieren (S920) der von der wenigstens einen aus der Mehrzahl von Zugangspunkten erfassten Informationsbits unter Verwendung der Identifizierungsinformationen, wenn die von der wenigstens einen aus der Mehrzahl von Zugangspunkten erfassten Informationsbits empfangen werden.
- Verfahren zum Betrieb eines Routers, wobei das Verfahren umfasst: Empfangen von Soft-Decision-Informationen (S810) über Informationsbits, die einem Übertragungssymbol entsprechen, das von einer Mehrzahl von Zugangspunkten oder wenigstens einem benachbarten Router stammt, wobei die Soft-Decision-Informationen Informationen umfassen, die mit einem dem Übertragungssymbol entsprechenden Verzögerungslimit verknüpft sind, wobei das Übertragungssymbol von einer Quellvorrichtung an eine Zielvorrichtung übertragen wird und das Verzögerungslimit für jeden Dienst unterschiedlich ist; Kombinieren von Soft-Decision-Informationen der Mehrzahl von Zugangspunkten oder des wenigstens einen benachbarten Routers (S860); und Übertragen der kombinierten Soft-Decision-Informationen an die Zielvorrichtung oder einen mit der Zielvorrichtung verbundenen Zugangspunkt (S870) und Abrufen der empfangenen Soft-Decision-Informationen in einer Warteschlange, wobei beim Kombinieren die Soft-Decision-Informationen der Mehrzahl von Zugangspunkten oder des wenigstens einen benachbarten Routers auf der Basis der abgerufenen Soft-Decision-Informationen kombiniert werden; und/oder Anordnen der Soft-Decision-Informationen in einer Warteschlange (S980) gemäß dem Vergleich (S880) einer tatsächlichen Verzögerung mit dem Verzögerungslimit entsprechend dem Übertragungssymbol.
- Verfahren nach Anspruch 9, wobei: das Empfangen (S810) der Soft-Decision-Informationen weiterhin das Empfangen von Informationsbits umfasst, die von wenigstens einem aus der Mehrzahl von Zugangspunkten erfassten wurden; und das Übertragen (S870) der kombinierten Soft-Decision-Informationen weiterhin das Übertragen (S870) der Informationsbits umfasst, die von der wenigstens einen aus der Mehrzahl von Zugangspunkten erfassten wurden, wobei die von der wenigstens einen aus der Mehrzahl von Zugangspunkten erfassten Informationsbits empfangen werden; und/oder wobei das Empfangen (S810) der Soft-Decision-Informationen weiterhin das Empfangen von Identifizierungsinformationen umfasst, wobei die Soft-Decision-Informationen oder die von der wenigstens einen aus der Mehrzahl von Zugangspunkten erfassten Informationsbits auf der Basis der Identifizierungsinformationen identifiziert (S820) werden.
- Verfahren nach Anspruch 9 oder 10, wobei die Zielvorrichtung oder der mit der Zielvorrichtung verbundene Zugangspunkt die Informationsbits unter Verwendung der kombinierten Soft-Decision-Informationen erfasst.
- Computerlesbares Aufzeichnungsmedium, auf dem ein Programm zur Umsetzung eines Betriebs eines Ziel-Zugangspunktes aus einer Mehrzahl von Zugangspunkten gespeichert ist, umfassend Anweisungen, die bei einem mit dem Ziel-Zugangspunkt verknüpften Computer folgendes bewirken: Empfangen eines Übertragungssymbols, das von einer Quellvorrichtung an eine Zielvorrichtung übertragen wurde (S610); Berechnen von Soft-Decision-Informationen für eine Soft-Decision in Bezug auf Informationsbits, die dem Übertragungssymbol entsprechen (S620); Erfassen der Informationsbits auf der Basis der berechneten Soft-Decision-Informationen (S630); Überprüfen, ob in den erfassten Informationsbits ein Fehler vorhanden ist (S640); und, falls kein Fehler in den erfassten Informationsbits vorhanden ist, Übertragen der erfassten Informationsbits an die Zielvorrichtung oder einen mit der Zielvorrichtung verbundenen Zugangspunkt (S650), oder falls ein Fehler in den erfassten Informationsbits vorhanden ist, Übertragen der Soft-Decision-Informationen an die Zielvorrichtung oder einen mit der Zielvorrichtung verbundenen Zugangspunkt (S670), wobei die Zielvorrichtung oder der mit der Zielvorrichtung verbundene Zugangspunkt die von jedem aus der Mehrzahl von Zugangspunkten übertragenen Soft-Decision-Informationen kombiniert; und wobei beim Übertragen der Soft-Decision-Informationen (S670) weiterhin Informationen übertragen werden, die mit einem dem Übertragungssymbol entsprechenden Verzögerungslimit verknüpft sind, wobei das Verzögerungslimit für jeden Dienst unterschiedlich ist.
- Kommunikationsvorrichtung einer Zielvorrichtung (440) oder eines mit der Zielvorrichtung (560) verbundenen Zugangspunktes (550), wobei die Kommunikationsvorrichtung umfasst: eine Empfangseinheit, die ausgelegt ist zum Empfangen von Soft-Decision-Informationen über Informationsbits, die einem von einer Mehrzahl von Zugangspunkten (421-423; 521-523) stammenden Übertragungssymbol entsprechen, wobei die Soft-Decision-Informationen Informationen umfassen, die mit einem dem Übertragungssymbol entsprechenden Verzögerungslimit verknüpft sind, wobei das Übertragungssymbol von einer Quellvorrichtung (410, 510) an die Zielvorrichtung übertragen wird und das Verzögerungslimit für jeden Dienst unterschiedlich ist; eine Kombinationseinheit, die ausgelegt ist zum Kombinieren der Soft-Decision-Informationen der Mehrzahl von Zugangspunkten; eine Erfassungseinheit, die ausgelegt ist zum Erfassen der Informationsbits unter Verwendung der kombinierten Soft-Decision-Informationen; und eine Fehlerüberprüfungseinheit, die ausgelegt ist zum Überprüfen, ob ein Fehler in den erfassten Informationsbits zu finden ist; und wobei die Kommunikationsvorrichtung weiterhin konfiguriert ist zum: Abrufen der empfangenen Soft-Decision-Informationen in einer Warteschlange, wobei beim Kombinieren die Soft-Decision-Informationen der Mehrzahl von Zugangspunkten auf der Basis der abgerufenen Soft-Decision-Informationen kombiniert werden; und/oder Anordnen der Soft-Decision-Informationen in einer Warteschlange (S980) gemäß dem Vergleich (S970) einer tatsächlichen Verzögerung mit dem Verzögerungslimit entsprechend dem Übertragungssymbol.
- Kommunikationsvorrichtung nach Anspruch 13, die weiterhin umfasst: eine Identifizierungseinheit, die ausgelegt ist zum Identifizieren der Soft-Decision-Informationen und der von wenigstens einer aus der Mehrzahl von Zugangspunkten erfassten Informationsbits unter Verwendung von Identifizierungsinformationen, wenn die von der wenigstens einen aus der Mehrzahl von Zugangspunkten erfassten Informationsbits empfangen werden, wobei die Empfangseinheit weiterhin ausgelegt ist zum Empfangen von Identifizierungsinformationen, wobei die Soft-Decision-Informationen oder die von der wenigstens einen aus der Mehrzahl von Zugangspunkten erfassten Informationsbits auf der Basis der Identifizierungsinformationen identifiziert werden.
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KR1020080089691A KR101466907B1 (ko) | 2008-09-11 | 2008-09-11 | 연판정 정보의 전송을 이용하는 데이터 통신 네트워크 및 통신 방법 |
PCT/KR2009/002283 WO2010030065A2 (en) | 2008-09-11 | 2009-04-30 | Data communication network and data communication method using transmission of soft-decision information |
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US8948138B2 (en) * | 2011-03-23 | 2015-02-03 | Telefonaktiebolaget L M Ericsson (Publ) | Signal compression for backhaul communications using linear transformations |
JP5611896B2 (ja) * | 2011-05-26 | 2014-10-22 | 日本電信電話株式会社 | 無線通信システムおよびダイバーシチ受信装置 |
US9491664B2 (en) | 2012-08-03 | 2016-11-08 | Telefonaktiebolaget Lm Ericsson (Publ) | Base stations and nodes for use in a mobile communications network and methods of operating the same |
JP6212574B2 (ja) * | 2014-02-06 | 2017-10-11 | 日本電信電話株式会社 | 基地局装置、無線通信システム、および通信方法 |
KR101792774B1 (ko) | 2015-03-06 | 2017-11-02 | (주)선텍 | 연속식 회전 태양광 건조기 |
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